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J Ultrasound. 2013 Aug 3;17(2):79-87. doi: 10.1007/s40477-013-0025-x. eCollection 2014 Jun.
2
Examination and intervention for sinus tarsi syndrome.距下窦综合征的检查与干预
N Am J Sports Phys Ther. 2009 Feb;4(1):29-37.
3
Sinus tarsi syndrome and subtalar joint instability.距下窦综合征与距下关节不稳
Clin Podiatr Med Surg. 2005 Jan;22(1):63-77, vii. doi: 10.1016/j.cpm.2004.08.005.
4
The role of the interosseous talocalcaneal ligament in subtalar joint stability.距跟骨间韧带在距下关节稳定性中的作用。
Foot Ankle Int. 2004 Aug;25(8):588-96. doi: 10.1177/107110070402500813.
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Tarsal sinus: arthrographic, MR imaging, MR arthrographic, and pathologic findings in cadavers and retrospective study data in patients with sinus tarsi syndrome.跗骨窦:尸体的关节造影、磁共振成像、磁共振关节造影及病理表现以及跗骨窦综合征患者的回顾性研究数据
Radiology. 2001 Jun;219(3):802-10. doi: 10.1148/radiology.219.3.r01jn31802.
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Real-time spatial compound imaging: application to breast, vascular, and musculoskeletal ultrasound.
Semin Ultrasound CT MR. 2001 Feb;22(1):50-64. doi: 10.1016/s0887-2171(01)90018-6.
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Tissue harmonic imaging techniques: physical principles and clinical applications.组织谐波成像技术:物理原理与临床应用
Semin Ultrasound CT MR. 2001 Feb;22(1):1-10. doi: 10.1016/s0887-2171(01)90014-9.
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Clinical use of ultrasound tissue harmonic imaging.超声组织谐波成像的临床应用。
Ultrasound Med Biol. 1999 Jul;25(6):889-94. doi: 10.1016/s0301-5629(99)00060-5.
9
MR imaging of the tarsal sinus and canal: normal anatomy, pathologic findings, and features of the sinus tarsi syndrome.跗窦和跗管的磁共振成像:正常解剖结构、病理表现及跗窦综合征的特征
Radiology. 1993 Jan;186(1):233-40. doi: 10.1148/radiology.186.1.8416571.
10
The stabilizing effect of the ligamentous structures in the sinus and canalis tarsi on movements in the hindfoot. An experimental study.跗窦和跗管内韧带结构对后足运动的稳定作用。一项实验研究。
Am J Sports Med. 1988 Sep-Oct;16(5):512-6. doi: 10.1177/036354658801600514.

使用12兆赫换能器对跗骨窦进行超声显影。

Sonographic visibility of the sinus tarsi with a 12 MHz transducer.

作者信息

Stella Salvatore Massimo, Ciampi Barbara, Orsitto Eugenio, Melchiorre Daniela, Lippolis Piero Vincenzo

机构信息

Ospedale di Misericordia di Navacchio, via Ruschi 34, 56011 Calci, PI Italy.

Ospedale di Misericordia di Navacchio, Navacchio, Cascina, Pisa, Italy.

出版信息

J Ultrasound. 2014 Dec 13;19(2):107-13. doi: 10.1007/s40477-014-0145-y. eCollection 2016.

DOI:10.1007/s40477-014-0145-y
PMID:27298640
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4879007/
Abstract

OBJECTIVES

To assess the value of ultrasonography in studies of the ligaments within the sinus tarsi (ST) in healthy subjects.

MATERIALS AND METHODS

We examined 20 healthy volunteers using a 12-MHz transducer with THI and compound imaging. With the foot in inversion, the following structures were examined with coronal and transverse scans: (1) the root of the inferior extensor retinaculum (RIER); (2) the interosseous talocalcaneal ligament (ITCL); (3) the cervical ligament (CL); (4) the bifurcate ligament (BL); (5) the synovial recesses, which were examined for possible distention (distended synovial recesses, DSR). The sonographic features, orientation, and thickness of each ligament were assessed.

RESULTS

The easiest structure to identify (visualized in 20/20 subjects) was the RIER, which formed a semiarch. The two deeper layers were hypoechoic, the superficial layer hyperechoic. The ITCL was situated posteriorly and deep with an oblique course. It appeared hypoechoic with a mean thickness of 4.06 mm ± 0.7. It was visualized in 18/20 (90 %) subjects. The CL (isoechoic/hyperechoic) was located more anteriorly at an intermediate depth. The orientation was almost vertical. It was visualized in 17/20 (85 %) subjects, with a mean thickness of 2.28 mm ± 0.34. The BL appeared hypoechoic. It was visualized in 19/20 (95 %) subjects with transverse (anterior end of the ST) and longitudinal scans. The calcaneonavicular and calcaneocuboid components displayed mean (SD) thicknesses of 2.09 mm ± 0.37 and 2.7 mm ± 0.32, respectively. The ITCL and RIER were visualized in the same scan as a semiarch. DSR was observed in 4/20 (20 %) subjects.

CONCLUSIONS

The present study shows that, in patients with suspected ST pathology, the anatomic structures that make up this recess can be adequately examined with ultrasonography performed with ordinary 12-MHz transducers.

摘要

目的

评估超声检查在健康受试者跗骨窦(ST)内韧带研究中的价值。

材料与方法

我们使用配备组织谐波成像(THI)和复合成像的12兆赫探头对20名健康志愿者进行了检查。足部内翻时,通过冠状面和横断面扫描检查以下结构:(1)下伸肌支持带根部(RIER);(2)距跟骨间韧带(ITCL);(3)颈韧带(CL);(4)分歧韧带(BL);(5)滑膜隐窝,检查其是否可能扩张(扩张的滑膜隐窝,DSR)。评估每条韧带的超声特征、走行方向和厚度。

结果

最容易识别的结构(20名受试者均可见)是RIER,它形成一个半拱形。两层较深的结构呈低回声,表层呈高回声。ITCL位于后方且较深,走行倾斜。它呈低回声,平均厚度为4.06毫米±0.7毫米。20名受试者中有18名(90%)可见。CL(等回声/高回声)位于更靠前的中间深度。走行方向几乎垂直。20名受试者中有17名(85%)可见,平均厚度为2.28毫米±0.34毫米。BL呈低回声。通过横断面(ST前端)和纵断面扫描,20名受试者中有19名(95%)可见。跟舟部和跟骰部的平均(标准差)厚度分别为2.09毫米±0.37毫米和2.7毫米±0.32毫米。在同一扫描中,ITCL和RIER呈半拱形可见。20名受试者中有4名(20%)观察到DSR。

结论

本研究表明,对于怀疑有ST病变的患者,使用普通12兆赫探头进行超声检查可以充分检查构成该隐窝的解剖结构。